METHOD OF PRODUCTION OF EXTRACT DERIVED FROM Swinglea Glutinosa LEAVES

ABSTRACT

The invention of the present Application provides a standardized method to obtain an extract and the extract from leaves of  Swinglea glutinosa,  wherein the method yields an amount of extract that is about 60% the weight of the  Swinglea glutinosa  leaves.

BACKGROUND OF THE INVENTION

1. AREA OF THE INVENTION

The present invention is related to how to obtain an extract fromSwingles glutinosa leaves, and uses of the extract.

2. DESCRIPTION OF PRIOR ART

Swingles glutinosa derived compounds had been described to have multiplebeneficial uses.

Weniger B. et al. discloses possible uses of acridone alkaloids fromSwingles glutinosa against Plasmodium falciparum, a protozoan which isthe main cause of malaria disease (see Weniger B. et al., BireactiveAcridone Alkaloids from Swinglea glutinosa, J. Nat. Prod., 2001,64(9):1221-3).

Braga P. A. C. et al. teaches the citotoxicity activity of derivativesof Swingles glutinosa against cancer cell lines (see Braga P. A. C. etal., In Vitro Citotoxicity Activity on Several Cancer Cell Lines ofAcridone Alkaloids and N-Phenylethyl-Benzamide derivatives from Swinglesglutinosa, Natural Product Research, 2007, 21(1):47-55).

Bueno-Sanchez J. G. et al. describes the potential of essential oilsfrom Swingles glutinosa against Mycobacterium tuberculosis, thetuberculosis causing agent (see Bueno-Sanchez J. G. et al., Assessmentof Antimycobacterial Activity of Several Aromatic and Medicinal Plantsthat Grow in Colombia, Memoirs of VI National Encounter of Investigationin Infectious Diseases, Colombian Association of Infectology, 2008, page96).

Unfortunately, there is no description in the prior art of astandardized method to obtain a good yield of a Swingles glutinosaextract that can be used by itself or from which further beneficialderivatives compounds can be attained. The Invention of the presentApplication overcomes these prior art limitations.

SUMMARY OF THE INVENTION

The invention of the present Application provides a standardized methodto obtain an extract and the extract from leaves of Swingles glutinosa,wherein the method yields an amount of extract that is about 60% theweight of the Swinglea glutinosa leaves.

More specifically, the present Application invention provides an extractisolated from Swingles glutinosa leaves, wherein said extract isobtained by a method comprising:

-   -   A. Exposing bright dark green Swingles glutinosa leaves in a dry        environment, wherein said leaves are protected from direct        sunlight, wherein the leaves are exposed to air flow;    -   B. leaving the leaves in the environment described in A. until        the leaves turn opaque green and the leaves are brittle;    -   C. breaking up the leaves into small fragments;    -   D. putting the Swingles glutinosa leaf fragments in contact with        a solvent at least once;    -   E. repeat step D. until the solvent is enriched with substances        derived from the leaf fragments; and,    -   F. retiring the solvent to release the extract.

In one aspect, the extract, obtained by the method of the presentApplication invention, is used to kill fungi.

In another aspect, the extract, obtained by the method of the presentApplication invention, is used to kill insects and mites.

In one more aspect, the extract, obtained by the method of the presentApplication invention, is used to repel insects and mites.

In addition, the present Application invention provides a method for theproduction of an extract derived from Swingles glutinosa plant, whereinsaid method comprises:

-   -   A. Exposing bright dark green Swingles glutinosa leaves in a dry        environment, wherein said leaves are protected from direct        sunlight, wherein the leaves are exposed to air flow;    -   B. leaving the leaves in the environment described in A. until        the leaves turn opaque green and the leaves are brittle;    -   C. breaking up the leaves into small fragments;    -   D. putting the Swingles glutinosa leaf fragments in contact with        a solvent at least once;    -   E. repeat step D. until the solvent is enriched with substances        derived from the leaf fragments; and,    -   F. retiring the solvent to release the extract

Objectives and advantages of the present Application invention will bemore evident in the detailed description of the invention and theclaims.

DETAILED DESCRIPTION OF THE INVENTION

The present invention provides an extract isolated from Swinglesglutinosa leaves, wherein said extract is obtained by a methodcomprising:

-   -   A. Exposing bright dark green Swingles glutinosa leaves in a dry        environment, wherein said leaves are protected from direct        sunlight, wherein the leaves are exposed to air flow;    -   B. leaving the leaves in the environment described in A. until        the leaves turn opaque green and the leaves are brittle;    -   C. breaking up the leaves into small fragments;    -   D. putting the Swingles glutinosa leaf fragments in contact with        a solvent at least once;    -   E. repeat step D. until the solvent is enriched with substances        derived from the leaf fragments; and,    -   F. retiring the solvent to release the extract.

In one additional aspect of the method of the present invention, theleaves are protected in any way possible from direct exposure tosunlight.

In other aspect of the method of the present invention, the leaves thatturn yellowish instead of opaque green are discarded. The period thatthe leaves take to turn into brittle leaves, and to turn from brightgreen leaves into opaque green leaves, depends on the optimal exposureto an air flow (aeration). Preferably, aeration occurs at 25° C.,although changes in temperature may change the aeration period, e.g.,small increases in temperature may shorten the aeration period.

In one more aspect of the method of the present invention, the leavesmust not be broken into leaf fragments that are less than 0.05 mm, sincesmaller fragments would tend to become a single mass which will become alimitation for the optimal extraction with a solvent.

The leaf fragments are exposed to contact to the solvent byre-circulating the solvent throughout the bed where the leaf fragmentsare. However, the leaf fragments could be the ones moving throughout acontainer with solvent. In the case of the former, it is required thatafter each time the solvent is in contact with the leaf fragments, toevaporate the solvent into a separate space, keeping the extractobtained, then the vaporized solvent is re-liquefied and reused for anew cycle. There are as many cycles as necessary, until when there isnot more extract obtained to keep. According to the method of thepresent invention, this is achieved when the remaining weight of thefragments leaf mass left is approximately 40% with respect to the weightof the leaf fragments before the first exposure to the solvent. In otherwords, the extract obtained constitutes approximately 60% of the initialleaf fragments weight

In one aspect of the present invention, the solvent that can be usedcomprises ethanol, methanol, hexane, propanol, isopropanol, CO₂,acetone, water, ethyl-acetate, nitrile-acetate, toluene,tetrahydrofurane, Chloroform, dichloromethane, and others.

In one more aspect, the extract, obtained by the method of the presentApplication invention, is used to kill fungi.

In another aspect, the extract, obtained by the method of the presentApplication invention, is used to kill insects and mites.

In one more aspect, the extract, obtained by the method of the presentApplication invention, is used to repel insects and mites.

In addition, the present Application invention provides a method for theproduction of an extract derived from Swingles glutinosa plant, whereinsaid method comprises:

-   -   A. Exposing bright dark green Swingles glutinosa leaves in a dry        environment, wherein said leaves are protected from direct        sunlight, wherein the leaves are exposed to air flow;    -   B. leaving the leaves in the environment described in A. until        the leaves turn opaque green and the leaves are brittle;    -   C. breaking up the leaves into small fragments;    -   D. putting the Swingles glutinosa leaf fragments in contact with        a solvent at least once;    -   E. repeat step D. until the solvent is enriched with substances        derived from the leaf fragments; and,    -   F. Retiring the solvent to release the extract

In one aspect of the present invention, the extract of can be used tokill fungi, wherein susceptible fungi comprises:

-   Sphaerotheca pannosa-   Botritys sp.-   Fusarium sp.-   Colletotrichum sp.-   Uncinola necator-   Variola sp.-   Peronospora sp.-   Puccinia sp.-   Cladosporium sp./Hetesroporium sp.,-   and others.

In another aspect of the present invention, the extract can be used tokill insects and mites, wherein susceptible insects and mites comprise:

-   Liriomyza sp-   Tetranichus sp.-   Boophilus microplus,-   and others

In one additional aspect of the present invention, the extract can beused to repel insects and mites, wherein susceptible insects and mitescomprise:

-   Liriomyza sp-   Tetranichus sp.-   Boophilus microplus,-   and others

The extract of the present invention can be combined with camphor andoils that have been described to kill fungi, kill and or repel insectsand mites, wherein the oils would enhance the effects of the Swinglesglutinosa extract against fungi, insects, and mites, and wherein theoils can be derived from garlic, orange, lemon, lime, Cymbopogon sp.,Eugenia caryophyllata, Eucalyptus sp., Melaleuca alternifolia, Citrussimensis, other citrus sp., cinnamon, and others

Objectives and advantages of the present Application invention will bemore evident in the detailed description of the invention and theclaims.

EXAMPLES

Branches with dark bright green leaves of Swinglea glutinosa tree werecollected and put under a roof at approximately 25° C., in a place wherethere was a natural air flow. The branches with leaves were periodicallymoved to guarantee exposition all leaves to the air flow. Afterapproximately three days, the leaves that were dry and turned opaquegreen were collected from the branches, and said dry opaque green leaveswere broken into fragments of no more than 0.05 mm with a blade mill.About 30 Kilograms of leaf fragments were put into a steel sieve with0.05 mm net-apertures. The container holding the steel sieve holding theleaf fragments was filled with a mix of 320 liters ethanol and 70 litersof water for about 45 minutes. The ethanol-water mix was withdrawn andthe ethanol-water was vaporized by heating. The remaining extract waskept, and the vaporized ethanol-water was turned into liquid again in aseparate closed spaced with a condenser. The ethanol-water mix wasreused to fill the container holding the steel sieve with leaf fragmentsfor six more times, each time from 25 minutes to 35 minutes. The finalamount of extract obtained was about 18 liters, wherein said extract wasa dark green viscous material.

A solution of 2 ml Extract/Liter of water was prepared and used for thefollowing experiment:

An isolated strain of a pathogenic fungus was propagated in an adequateculture medium for the strain. Then, a suspension on water was preparedat a concentration of 1×10⁶ spores/ml. A plate with the culture mediumonly and a plate with the cultured medium prepared with the 2 mlExtract/Liter of water solution, were prepared. Both plates were bathedwith 20 μl of the suspension with spores.

After incubation of the plates for 12 days at room temperature thepercentage of inhibition for each fungus was measured with the followingresults:

Fusarium oxysporum 72.20% Botrytis cinerea 80.70% Mycosphaerellafijiensis 68.40% Colletotrichum sp. 90.44%

For Sphaerotheca pannosa a spore suspension was applied to leaves ofhealthy rose plants bathed with the 2 ml Extract/Liter of watersolution, and to leaves of un-bathed healthy rose plants. Then theleaves of both rose plants were observed for formation of fungi pustulesafter 15 days. There was a 65.7% less formation of pustules in theleaves of rose plants bathed with the 2 ml Extract/Liter of watersolution.

With respect to Liriomyza sp. a repellence test was made by comparingbathed leaves of bean plants with the 2 ml Extract/Liter of watersolution and un-bathed leaves of bean plants. The plants with bathed andun-bathed leaves were put inside a cage with Liriomyza sp. After 24hours points of disease caused by Liriomyza sp. in leaves of both plantswere compared. The plants with leaves bathed with the 2 ml ofExtract/Liter of water solution presented 75.3% less points of diseasethan the plants with un-bathed leaves.

With respect to Tetranichus sp. a repellence test was made by comparing5 mm discs cut from leaves of bean plants, wherein 5 mm leaf discs thatwere bathed with the 2 ml of Extract/Liter of water solution werecompared against un-bathed 5 mm leaf discs, and wherein a 2 mm un-bathedleave disc with a Tetranichus sp. mites was put on top of both 5 mm leafdiscs. After 24 hours there were 78.4% less Tetranichus sp. mites on topof the 5 mm leaf discs bathed with the 2 ml of Extract/Liter of watersolution than in the un-bathed 5 mm leaf discs.

With respect to Boophilus microplus (ticks) a 5 ml of Extract/Liter ofwater solution was used in a mortality experiment, wherein adultregurgitated ticks that were bathed with the 5 ml of Extract/Liter ofwater solution were compared against un-bathed ticks. Both, the bathedticks and the un-bathed ticks were put in a Petri dish and observed.After three days, there was 75% more deaths among the ticks bathed withthe 5 ml of Extract/Liter of water solution than among the un-bathedticks.

1. An extract isolated from Swingles glutinosa leaves, wherein saidextract is obtained by a method comprising: A. Exposing bright darkgreen Swingles glutinosa leaves in a dry environment, wherein saidleaves are protected from direct sunlight, wherein the leaves areexposed to air flow; B. leaving the leaves in the environment describedin A. until the leaves turn opaque green and the leaves are brittle; C.breaking up the leaves into small fragments; D. putting the Swinglesglutinosa leaf fragments in contact with a solvent at least once; E.repeat step D. until the solvent is enriched with substances derivedfrom the leaf fragments; and, F. retiring the solvent to release anextract.
 2. The extract of claim 1, wherein said extract is used to killfungi.
 3. The extract of claim 1, wherein said extract is used to killinsects and mites.
 4. The extract of claim 1, wherein said extract isused to repel insects and mites.
 5. A method for the production of anextract derived from Swingles glutinosa plant, wherein said methodcomprises: A. Exposing bright dark green Swingles glutinosa leaves in andry environment, wherein said leaves are protected from direct sunlight,wherein the leaves are exposed to air flow; B. leaving the leaves in theenvironment described in A. until the leaves turn opaque green and theleaves are brittle; C. breaking up the leaves into small fragments; D.putting the Swingles glutinosa leaf fragments in contact with a solventat least once; E. repeat step D. until the solvent is enriched withsubstances derived from the leaf fragments; and, F. retiring the solventto release an extract.